High Pressure Rheology – On the Statistics of Falling Body Viscometers

2018 Global Fluid Power Society PhD Symposium (GFPS) Pub Date : 2018-07-01 DOI:10.1109/GFPS.2018.8472359

M. Rückert, O. Reinertz, K. Schmitz

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Abstract

Viscosity measurements in fluid power are a standard tool to gain information on the fluid and its condition. The results are required for system design and simulation. Within fluid power systems, high pressures are common in piston-bushing contacts or lubricating gaps for example. A popular approach to high-pressure measurements is falling body viscometry. The terminal velocity of a falling body inside a fluid-filled tube is used to determine the fluids viscosity. However, falling body viscometry is prone to inaccuracies which raises questions regarding the reliability of the measurement principle and the measurement itself. Eccentricity, tumbling and material pairings above all other factors are responsible for deviations regarding terminal velocity of the falling body. Studies do indicate highly varying falling times at constant conditions, but a significant statistical analysis has not been done yet. Therefore, using the viscometer at IFAS, a statistical falling time evaluation is carried out and different falling body designs are compared to each other. Afterwards, the most advantageous geometry is identified.

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高压流变学。落体粘度计的统计

流体动力中的粘度测量是获得流体及其状态信息的标准工具。该结果为系统设计和仿真提供了依据。在流体动力系统中，高压在活塞衬套接触或润滑间隙中很常见。一种流行的高压测量方法是落体粘度测定法。在充满流体的管内，用落体的终端速度来确定流体的粘度。然而，落体粘度法容易出现不准确性，这就提出了有关测量原理和测量本身可靠性的问题。偏心、翻滚和材料配对是导致落体最终速度偏离的主要因素。研究确实表明，在恒定条件下，下降时间变化很大，但尚未进行重要的统计分析。因此，利用IFAS的粘度计，进行了统计降落时间评估，并对不同的降落体设计进行了比较。然后，确定最有利的几何形状。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Global Fluid Power Society PhD Symposium (GFPS)

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